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(e.g. Python, R) Experience in the use of neuroimaging analysis (fMRI, MRI) to study mechanisms of brain function Previous experience of using Bayesian methods in both model development and fitting
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of using Bayesian methods in both model development and fitting. Previous experience and knowledge of research methods and study design in clinical trials. Knowledge of Good Clinical Practice (GCP) in
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human tumours. We have an exciting opportunity for a Postdoctoral Researcher to join the new team at Oxford, utilising in vivo brain tumour models to identify molecular targets underlying tumour
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microbial effectors targeted host plant processes. Crucially, the project will exclude the study of plant immunity. The successful candidate will use advanced cell biology, protein biochemistry, and molecular
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valuable resource for investigating novel molecular mechanisms underlying gastric cancer pathogenesis, with the goal of identifying new therapeutic targets. You will work closely with academic staff
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feedstocks into high value second generation chemicals. The target molecule has varied applications across the food and flavouring, pharmaceuticals and agrichemical industries. The project will be based in
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proteins that regulate many processes, from blood coagulation to extracellular matrix (ECM) homeostasis. Most serpins are inhibitory, and use a covalent mode of inhibition to inhibit their target serine
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coagulation to extracellular matrix (ECM) homeostasis. Most serpins are inhibitory, and use a covalent mode of inhibition to inhibit their target serine proteinases (1). We and others have suggested serpins
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to join the Antigen Discovery Group at the University of Dundee. This CRUK-funded project focuses on identifying targetable T cell antigens in early-stage mesothelioma, with the goal of developing a novel
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their target antigens and become activated in serious human diseases, including autoimmune disorders, infectious diseases, and cancers. We study how adaptive T cell immunity is developed and/or becomes impaired